Claims
- 1. A pulse tube refrigerator comprising:
- a compression part;
- a regenerator having a first end connected to said compression part;
- a cooling part having a first end connected to a second end of said regenerator;
- a pulse tube having a first end connected to a second end of said cooling part;
- a high-temperature section connected to a second end of said pulse tube; and
- a travel member, in said pulse tube, for moving together with working fluid in said pulse tube to separate working fluid on an end of said pulse tube most proximate to said high-temperature section and working fluid on an end of said pulse tube most proximate to said cooling part from each other.
- 2. The pulse tube refrigerator of claim 1, said high temperature section comprising:
- a flow rate regulation part having a first end connected to a second end of said pulse tube; and
- a buffer tank connected to a second end of said flow rate regulation part;
- wherein said refrigerator has an orifice-type refrigerator structure.
- 3. The pulse tube refrigerator of claim 1, wherein:
- said high temperature section comprises
- a flow rate regulation part having a first end connected to a second end of said regenerator,
- a buffer tank connected to a second end of said flow rate regulation part,
- a bypass pipe having a first end connected to a connection between said compression part and said regenerator and a second end connected to a connection between said regenerator and said first flow rate regulation part, and
- an additional flow rate regulation part in said bypass pipe; and
- said refrigerator has a double inlet-type refrigerator structure.
- 4. The pulse tube refrigerator of claim 1, wherein:
- said high temperature section comprises an additional compression part connected to a second end of said pulse tube; and
- said refrigerator has a double piston-type refrigerator structure.
- 5. The pulse tube refrigerator of claim 1, wherein said travel member has substantially a same cross-section as an inner diameter of said pulse tube.
- 6. The pulse tube refrigerator of claim 1, wherein said travel member is ball-shaped.
- 7. The pulse tube refrigerator of claim 1, wherein said travel member is column-shaped.
- 8. The pulse tube refrigerator of claim 1, wherein said travel member has material having a higher durability than a remainder of said travel member disposed on surfaces of said travel member contacting said working fluid.
- 9. The pulse tube refrigerator of claim 1, wherein said travel member is disposed in an end of said pulse tube most proximate to said high-temperature section.
- 10. The pulse tube refrigerator of claim 1, wherein said travel member is made of a lightweight resin family material having a low thermal conductivity.
- 11. A method of cooling a working fluid in a pulse tube refrigerator, said method comprising the steps of:
- alternately compressing and expanding a first working fluid to cool it to a cryogenic temperature;
- providing said cooled first working fluid in a first end of a pulse tube;
- providing a second working fluid at a second end of said pulse tube, said second working fluid being responsive to changes in pressure at said first end of said pulse tube; and
- preventing said second working fluid from flowing to said first end of said pulse tube.
- 12. The method of claim 11, wherein said preventing step comprises a step of using a traveling member disposed in said pulse tube to block flow of said second working fluid.
- 13. The method of claim 12, wherein said using step comprises a step of allowing said travelling member to move freely in said pulse tube responsive to relative pressures at said first and second ends of said pulse tube.
- 14. A pulse tube refrigerator comprising:
- a compression part;
- a regenerator having a first end connected to said compression part;
- a cooling part having a first end connected to a second end of said regenerator;
- a pulse tube having a first end connected to a second end of said cooling part;
- a high-temperature section connected to a second end of said pulse tube; and
- fluid temperature control means for preventing heat transfer between working fluid on an end of said pulse tube most proximate to said high-temperature section and working fluid on an end of said pulse tube most proximate to said cooling part.
- 15. The pulse tube refrigerator of claim 14, said fluid temperature control means comprising a travel member, in said pulse tube, for moving together with working fluid in said pulse tube to prevent heat transfer between said working fluid on said end of said pulse tube most proximate to said high temperature section and working fluid on said end of said pulse tube most proximate to said cooling part.
- 16. The pulse tube refrigerator of claim 14, wherein said fluid temperature control means has substantially a same cross-section as an inner diameter of said pulse tube to prevent heat transfer via flow of working fluid from said high temperature section to said cooling part.
- 17. The pulse tube refrigerator of claim 14, wherein said fluid temperature control means is disposed in an end of said pulse tube most proximate to said high-temperature section.
- 18. The pulse tube refrigerator of claim 14, wherein said fluid temperature control means is made of a lightweight resin family material having a low thermal conductivity to prevent heat transfer between said working fluid on said end of said pulse tube most proximate to said high-temperature section and said working fluid on said end of said pulse tube most proximate said cooling part.
Priority Claims (1)
Number |
Date |
Country |
Kind |
7-264187 |
Oct 1995 |
JPX |
|
CROSS-REFERENCE TO RELATED APPLICATIONS
The present application is related to and claims priority from Japanese Patent Application No. Hei. 7-264187, incorporated herein by reference.
US Referenced Citations (3)
Number |
Name |
Date |
Kind |
5269147 |
Ishizaki et al. |
Dec 1993 |
|
5295355 |
Zhou et al. |
Mar 1994 |
|
5357757 |
Lucas |
Oct 1994 |
|
Non-Patent Literature Citations (2)
Entry |
Cryogenic Engineering, vol. 3, No. 5, (1968) pp. 201-207 "Pulse-Tube Refrigerator". |
Superconductivity and Cryogenic Engineering Handbook, Nov. 30, 1993, pp. 206-208, "Modified Pulse-Tube Refrigerator". |